Ses Dalgalarının 1000 Hz Ve Farklı Ses Şiddetlerinde Lavanta Ve Biberiye Bitkileri Üzerindeki Etkileri
Abstract
Abiyotik stres faktörleri arasında yer alan farklı
ses dalgalarının oluştuğu ses alanlarının meydana getirdiği ses stresleri,
alternatif mekanik bir stres olarak bitkilerin büyüme ve gelişmelerine etki
etmektedir. Çalışmada tıbbi amaçlı olarak değerlendirilen iki
farklı tıbbi ve aromatik bitkiler (Lavandula
angustifolia, Rosmarinus officinalis) sabit tutulan 1000 Hz frekans
değerinde 3 farklı ses şiddeti düzeyinde (95dB, 100dB,105dB) ses dalgalarına
maruz bırakılmışlardır. Farklı şiddetteki ses stresine tabi tutulan bitkilerde;
bitki boyu (cm), yaprak sayısı (adet/bitki), gövde çapı (mm), bitki taze ve
kuru herba ağırlıkları (g/bitki) ile kök taze ve kuru ağırlıkları (g/bitki)
ölçülmüş ve bitki kuru herbada uçucu yağ oranları (%) belirlenmiştir. Sonuç olarak;
Lavandula
angustifolia, Rosmarinus
officinalis ses stresi bitki büyüme parametrelerini ve uçucu yağ oranlarını
etkilemiştir.
References
- Braam, J., Sistrunk, M.L., Polisensky, D.H., Xu, W., Purugganan, M.M., Antosiewicz, D.M., Campbell, P., Johnson, K.A., 1997. Plant responses to environmental stress: Regulation and functions of the Arabidopsis TCH genes. Planta, 203:35–41.
- Bray, E.A., 2000. Responses to abiotic stresses. Biochemistry and molecular biology of plants: 1158-1203.
- Cetinkaya, A., 2010. The sound analysis of some insect species and the investigation of availability agricultural struggle [Msc thesis]. Turkey, Cukurova University
- Collins, M.E., John, E.K., 2001. The effect of sound on the growth of plants. Canadian Acoustics, 29:3-8.
- El-Rahman, F.A., 2017. Insight into the Effect of Types of Sound on Growth, Oil and Leaf Pigments of Salvia officinalis, L Plants. Life Science Journal, 14:4-8
- Levitt, J., 1972. Responses of plants to environmental stresses., New York, London: Academic Press, 41:697
- Li, B., Wei, J., Wei, X., Tang, K., Liang, Y., Shu, K., Wang, B., 2008. Effect of sound wave stress on antioxidant enzyme activities and lipid peroxidation of Dendrobium candidum. Colloids and Surfaces B: Biointerfaces, 63(2):269-275.
- Lichtenhaler, H.K., 1996.Vegetation stress: An introduction to the stress concept in plants. Journal of Plant Physiology, 148:4-14.
- Ozkurt, H., Altuntas, O., 2016. The Effect of Sound Waves at Different Frequencies upon the Plant Element Nutritional Uptake of Snake Plant (Sansevieria trifasciata) Plants. Indian Journal of Science and Technology, 9:48-55.
- Ozkurt, H., Altuntas, O., Bozdogan, E., 2016. The Effects of Sound Waves upon Plant Nutrient Elements Uptake of Sword Fern (Nephrolepis exaltata) Plants. Journal of Basic and Applied Scientific Research, 6(3):9-15
- Sharma, D., Gupta, U., Fernandes, A. J., Mankad, A., Solanki, H. A., 2015. The effect of music on physico-chemical parameters of selected plants. International Journal of Plant, Animal and Environmental Sciences, 5(1):282-287.
- Taiz, L., Zeiger, E., 2008. Plant Physiology, Sinauer Associcates, Inc., Publishers. pp.1-690.
- Wang, W.X., Vinocur, B., Shoseyov, O., Altman, A., 2000. Biotechnology of plant osmotic stress tolerance physiological and molecular considerations. In IV International Symposium on In Vitro Culture and Horticultural Breeding 560:285-292.
- Wang, W., Basia, V., Arie, A., 2003. Plant responses to drought, salinity and extreme temperatures: towards genetic engineering for stress tolerance. Planta. 218:1-14.
- Xiujuan, W., Bochu, W., Yi, J., Chuanren, D., and Sakanishi, A., 2003. Effect of sound wave on the synthesis of nucleic acid and protein in chrysanthemum. Colloids and Surfaces B: Biointerfaces, 29:99-102.
The Effects Of Sound Waves At 1000 Hz And Different Sound Intensities On Lavender And Rosemary Plants
Abstract
Sound stresses included in abiotic stress factors
created by the sound areas in which sound waves form affect growth and
development of plants as an alternative mechanic stress. In this study, two
medicinal and aromatic plants (Lavandula
angustifolia, Rosmarinus officinalis)
which have an important place in human health, were exposed to sound waves at 3
different dB values (sound intensities are 95 dB,100dB,105dB). During the
period of application the frequency values 1000 Hz adjusted as constantly.
Sound stresses that created by the sound fields in which sound waves that have
different dB values affect growth and development of plants as an alternative
mechanic stress. In this research, plant height (cm), number of leaves/plant,
diameter of stem (mm), fresh and dry weight of root, fresh and dry weight of
shoot (leaves + stem) were measured and essential oil rate (%) were determined.
The results indicated that growth parameters and essential oil of, Lavandula angustifolia, Rosmarinus officinalis were affected by
sound intensities.
References
- Braam, J., Sistrunk, M.L., Polisensky, D.H., Xu, W., Purugganan, M.M., Antosiewicz, D.M., Campbell, P., Johnson, K.A., 1997. Plant responses to environmental stress: Regulation and functions of the Arabidopsis TCH genes. Planta, 203:35–41.
- Bray, E.A., 2000. Responses to abiotic stresses. Biochemistry and molecular biology of plants: 1158-1203.
- Cetinkaya, A., 2010. The sound analysis of some insect species and the investigation of availability agricultural struggle [Msc thesis]. Turkey, Cukurova University
- Collins, M.E., John, E.K., 2001. The effect of sound on the growth of plants. Canadian Acoustics, 29:3-8.
- El-Rahman, F.A., 2017. Insight into the Effect of Types of Sound on Growth, Oil and Leaf Pigments of Salvia officinalis, L Plants. Life Science Journal, 14:4-8
- Levitt, J., 1972. Responses of plants to environmental stresses., New York, London: Academic Press, 41:697
- Li, B., Wei, J., Wei, X., Tang, K., Liang, Y., Shu, K., Wang, B., 2008. Effect of sound wave stress on antioxidant enzyme activities and lipid peroxidation of Dendrobium candidum. Colloids and Surfaces B: Biointerfaces, 63(2):269-275.
- Lichtenhaler, H.K., 1996.Vegetation stress: An introduction to the stress concept in plants. Journal of Plant Physiology, 148:4-14.
- Ozkurt, H., Altuntas, O., 2016. The Effect of Sound Waves at Different Frequencies upon the Plant Element Nutritional Uptake of Snake Plant (Sansevieria trifasciata) Plants. Indian Journal of Science and Technology, 9:48-55.
- Ozkurt, H., Altuntas, O., Bozdogan, E., 2016. The Effects of Sound Waves upon Plant Nutrient Elements Uptake of Sword Fern (Nephrolepis exaltata) Plants. Journal of Basic and Applied Scientific Research, 6(3):9-15
- Sharma, D., Gupta, U., Fernandes, A. J., Mankad, A., Solanki, H. A., 2015. The effect of music on physico-chemical parameters of selected plants. International Journal of Plant, Animal and Environmental Sciences, 5(1):282-287.
- Taiz, L., Zeiger, E., 2008. Plant Physiology, Sinauer Associcates, Inc., Publishers. pp.1-690.
- Wang, W.X., Vinocur, B., Shoseyov, O., Altman, A., 2000. Biotechnology of plant osmotic stress tolerance physiological and molecular considerations. In IV International Symposium on In Vitro Culture and Horticultural Breeding 560:285-292.
- Wang, W., Basia, V., Arie, A., 2003. Plant responses to drought, salinity and extreme temperatures: towards genetic engineering for stress tolerance. Planta. 218:1-14.
- Xiujuan, W., Bochu, W., Yi, J., Chuanren, D., and Sakanishi, A., 2003. Effect of sound wave on the synthesis of nucleic acid and protein in chrysanthemum. Colloids and Surfaces B: Biointerfaces, 29:99-102.
Details
| Primary Language | Turkish |
|---|---|
| Journal Section | Articles |
| Authors | |
| Publication Date | August 31, 2018 |
| Submission Date | March 6, 2018 |
| Published in Issue | Year 2018 Volume: 23 Issue: 2 |